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Published March 29, 2024 | Version V1.0
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The strong interaction as a nonlinear near-field component of the electromagnetic field

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Description

A simple comparison of field gradients provides a completely new point of view on the Yukawa-potential. The course of the effective nuclear force - i.e. the nuclear-residual interaction and the electric field - of a proton appears to be incredibly similar to the behavior of gravity near a black hole. In other words, similar to the behavior of a field that is also highly nonlinear. As a first approximation, this results in an elementary connection between the nuclear force and the electrostatic field of the proton. This may lead to a new way to unify two forces by using a Kaluza-Klein theory of electromagnetism.

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Identifiers

DOI
10.5281/zenodo.10891300

Dates

Created
2024-03-18
final form

References

  • Edward Witten, School of Natural Sciences, Institute for Advanced Study Olden Lane, Princeton, N.J. 08540, Joseph Polchinski, Institute for Theoretical Physics University of California, Santa Barbara, CA 93106, Evidence for Heterotic - Type I String Duality
  • Theodor Kaluza, On the Unification Problem in Physics
  • T.E.O Ericson, B. Loiseau, A.W. Thomas, Cern, 1211 Geneva 23, Switzerland, Determination of the pion–nucleon coupling constant and scattering length
  • Enrique Ruiz Arriola, Johannes Gutenberg-Universität Mainz, Germany, The Pion-Nucleon- Nucleon Coupling Constants